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Ultrathin mortar joint masonry construction method of sintered shale insulation hollow block pulp bonding method

A technology of hollow blocks and construction methods, which is applied in the field of building wall materials, can solve problems such as thick mortar joints in walls, and achieve the effects of eliminating thermal bridges, improving bearing capacity, and weakening complex stress effects

Active Publication Date: 2015-04-15
XI'AN UNIVERSITY OF ARCHITECTURE AND TECHNOLOGY +1
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

It effectively solves the disadvantages of thick mortar joints and high thermal bridges in existing sintered shale thermal insulation hollow masonry buildings, and significantly improves the construction efficiency and thermal insulation performance of the walls

Method used

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  • Ultrathin mortar joint masonry construction method of sintered shale insulation hollow block pulp bonding method
  • Ultrathin mortar joint masonry construction method of sintered shale insulation hollow block pulp bonding method
  • Ultrathin mortar joint masonry construction method of sintered shale insulation hollow block pulp bonding method

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Embodiment Construction

[0028] Such as Figure 1-Figure 4 As shown, the sintered shale thermal insulation hollow block of the present invention is sticky mortar thin gray joint masonry construction method, and its specific steps are:

[0029] Step 1. Base surface cleaning and leveling: Clean up the base surface to be built and remove the protruding parts; level the base surface with ordinary mortar, and check the flatness with a level.

[0030] Step 2. Laying out: According to the design drawings, determine the edge of the wall, the openings of doors and windows, and the position lines of structural columns, and control the deviation within the allowable range.

[0031] Step 3, erect the number rods: erect the number rods uniformly with a level, so that the elevations on each number rod match, and check the thickness of the skin on the number rods against the design drawing; Elevation position.

[0032] Step 4, block preparation: such as figure 2 As shown, block 4 is made of sintered shale therma...

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Abstract

The invention discloses an ultrathin mortar joint masonry construction method of a sintered shale insulation hollow block pulp bonding method, wherein prepared mortar is poured in a mortar container. Blocks are placed in the mortar container which accommodates the mortar for bonding pulp, and are enabled to be sunk in the mortar surface for 5 mm; aligning to story poles, the blocks bonded with the mortar are sequentially constructed at appointed positions, and are slightly knocked by a rubber hammer for straightening; son grooves and mother grooves on two sides of two connected blocks are clamped with each other correspondingly; the construction is began from a wall body corner or a T-shaped joint to one side; and the blocks are enabled to be constructed with staggered joints. The construction is required to be synchronously implemented at the wall body corner and the T-shaped joint, so that a longitudinal wall and a transverse wall are in tight occlusion connection with each other; oblique differences is required to be reserved for parts which cannot be synchronously constructed; and straight differences are forbidden. The method avoids thicker mortar joints and severe loss of thermal bridges in the traditional construction method, so that the heat insulation property of wall bodies is remarkably improved; and the method is simple and convenient for construction, remarkably improves the construction efficiency, and largely shortens the construction period.

Description

technical field [0001] The invention belongs to the field of building wall materials, and relates to a construction method of thermal insulation wall masonry, in particular to a construction method of ultra-thin mortar joint masonry construction of sintered shale thermal insulation hollow blocks. technical background [0002] With the development of my country's economy, energy conservation is a long-term strategic policy for my country's economic and social development, and it is also an extremely urgent task at present. Doing a good job in energy conservation and consumption reduction is the key to implementing the scientific development concept, changing the mode of economic growth and building resources. The basic requirement of a conservation-oriented society is a major change in production and lifestyle, and an important guarantee for the sustainable and healthy development of the economy. Therefore, it is an urgent matter to vigorously develop new wall materials that a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E04G21/14E04G21/20C04B28/04
Inventor 白国良浮广明刘超李坚李学军陆文斌佟建波
Owner XI'AN UNIVERSITY OF ARCHITECTURE AND TECHNOLOGY
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